gas molecules have no inter-molecular forces

gas particles are in random motion

the collisions between gas particles are elastic

gas particles have no volume

the average kinetic energy is proportional to the Celsius temperature of the gas

Gas molecules have forces of attraction for each other

Collisions between gas molecules lead to a transfer of energy that is conserved

Gas molecules have a negligible volume compared to the volume they occupy

Gas molecules move in a random, straight-line motion

Particles of a gas move in all possible directions in straight lines

There is no force of attraction between the particles of a gas at ordinary temperature and pressure

The actual volume of the gas is negligible in comparison to the empty space between them

All the particles, at any particular time, have same speed and same kinetic energy

Individual gas molecules are relatively far apart

The average kinetic energies of different gases are different at the same temperature

The actual volume of the gas molecules themselves is very small compared to the volume occupied by the gas at ordinary temperature and pressure

The theory explains most of the observed behavior of gases at ordinary temperatures and pressures

chlorine

helium

hydrogen

nitrogen

All particles are infinitely small and the size of a particle is negligible compared to the container that it holds.

The particles of gas are in constant motion and move in straight lines.

The particles of gas do not exert any force of attraction or repulsion on each other. There is no energy loss during a collision.

The mean kinetic energy of the particles is directly proportional to their absolute temperature.

chlorine

nitrogen

hydrogen

oxygen